US2072902A - Manufacture of compositions of matter containing synthetic resins - Google Patents
Manufacture of compositions of matter containing synthetic resins Download PDFInfo
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- US2072902A US2072902A US69663A US6966336A US2072902A US 2072902 A US2072902 A US 2072902A US 69663 A US69663 A US 69663A US 6966336 A US6966336 A US 6966336A US 2072902 A US2072902 A US 2072902A
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- formaldehyde
- phenol
- resin
- chloracetone
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D101/00—Coating compositions based on cellulose, modified cellulose, or cellulose derivatives
- C09D101/08—Cellulose derivatives
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G8/00—Condensation polymers of aldehydes or ketones with phenols only
- C08G8/28—Chemically modified polycondensates
Definitions
- lacquers and like compositions which have a much reduced tendency to darken on exposure to light may be formed from synthetic resins obtainable by reacting a phenol with a halogenated aliphatic. ketone and then reacting the product with formaldehyde or a substance yielding formaldehyde. Furthermore in the manufacture of moulded 'articles from compositions containing synthetic resins in which conversion of a fusible resin to an infusible for-m occurs, it is desirable that such conversion shall, take place as rapidly as possible. It has been found that the synthetic resins referred to above are particularly rapidly converted into an insoluble, infusible form so that moulding compositions containing them are of considerable value.
- the present invention is concerned with lacquers, moulding powders and other com positions of matter which comprise resins obtainable by reacting a phenol with a halogenated aliphatic ketone and then reacting the product with formaldehyde or a substance yielding formaldehyde, and with the production of films and other spun products, moulded articles and the like therefrom.
- the phenols employed in the manufacture of the synthetic resins employed according to the present invention are preferably monohydrlc' phenols, e. g. xylenols and metaand para-cresols, and poly-nuclear compounds which, though more than one phenolic group is present, do not contain more than one such group in each nucleus.
- Partlcularly valuable 'phenols are phenol itself,
- o-cresol the mixture of cresols known as cresylic 0 acid, and diphenylol propane.
- the best halogenated ketone to employ is 'chloracetone, though other halogenated ketones, e. g. monochlor methyl ethyl ketone may be employed.
- formaldehyde instead of formaldehyde itself, substances yielding formaldehyth, e. g. hexametbrlenc tetramine may be obtained from a phenol and a ketone may be reacted with formaldehyde to form a resin of the type to which the present invention relates.
- condensation products obtained from aphenol and chloracetone are already known, and the resins employed according to the present invention may be obtained by reacting such products with formaldehyde;
- the proportions of constituents employed may be varied, but in genphenol to one molecule of ketone and from one to three molecules of formaldehyde yield the best results.
- an acid catalyst is to be employed in a reaction in which hexamethylene tetramine is present, due allowance should of course be made for the acid neutralized in decomposing the hexamethylene tetramine.
- the synthetlcresins employed in the compositions of matter of this invention are fusible, soluble in solvents. such as acetone, alcohol, acetic acid and dilute caustic soda, and are insoluble in benzene and similar hydrocarbons.
- the synthetic resins employed according .to this invention may be rapidly converted into an infusible insoluble form and for this reason compositions comprising such resins are very valuable forthe production of moulded products,
- the synthetic resins have a very good resistance to light, and films may be formed from compositions containing the above synthetic resins and cellulose acetate which show practically no darkening after an exposure of four days to the fadeometer, (whereas ordinary phenol-formaldehyde resins show considerable darkening under these conditions) which is of course a property of great value in lacquers.
- The-synthetic resins referred to above when prepared .in the presence. of acid catalysts are, in general, compatible with cellulose acetate and other organic derivatives of cellulose.
- compositions of the present invention may contain, in addition to the synthetic resins, any of such substances or mixtures thereof.
- Compositions containing the above synthetic resins dissolved in organic solvents such as acetone may be formed into films and other products by wet or dry spinning processes.
- the resins obtained from chloracetone, formaldehyde and phenol, o-cresol, cresylic acid or diphenylol propane are especially valuable.
- compositions of the present invention may contain suitable plasticizers, examples of which are tricresyl and triphenyl phosphates and other alkyl phosphates, di-ethyl and di-butyl tartrates and other esters, for example diand tri-acetins. They may also contain colouring materials, e. g. boneblack, iron oxide and manganese dioxide. and fillers, for example China clay, micro asbestos, bentonite, wood flour, cotton fiock, mica and gypsum.
- suitable plasticizers examples of which are tricresyl and triphenyl phosphates and other alkyl phosphates, di-ethyl and di-butyl tartrates and other esters, for example diand tri-acetins. They may also contain colouring materials, e. g. boneblack, iron oxide and manganese dioxide. and fillers, for example China clay, micro asbestos, bentonite, wood flour, cotton fiock, mica and gypsum.
- Example 1 The following is an example of one method of preparing a synthetic resin which may be employed in the compositions of matter of the present invention.
- 50 parts by weight of phenolchloracetone resin are heated at 100 C. under reflux for about 5 minutes "with 20-40 parts by weight of 40% formaldehyde solution in the presence of about .5 parts by weight of concentrated hydrochloric acid.
- the resin formed is washed with water and is similar in appearance to the phenol-chloracetone resin except that it has a lower melting point. dried it is fusible at about 100 C., while on cooling it shows a melting point of approximately 0., whereas the phenol-chloracetone resin employed as starting material solidifies at about 120 C.
- the phenol-chloracetone resin may be heated for a considerable time at temperatures up to 200 C. without being converted into an insoluble form
- the phenol-chloracetone formaldehyde resin may be converted into such form by heating at temperatures'of even of the order of C. This property of course is of great importance in the manufacture of moulded products.
- the resin is soluble in acetone, acetic acid, and dilute caustic soda, and insoluble in benzole, and is compatible with cellulose acetate in all proportions giving hard films.
- the process described in the above example may be modified by the use of about .25 parts by weight of phosphoric acid instead of the hydrochlcric acid. In this case the reaction is considerably slower, taking from 2-4 hours, and in consequence may be better controlled. If, instead of phosphoric acid an alkaline catalyst is used, for example 2 parts by weight of 5% caustic soda solution, the resin obtained is incompatible with cellulose acetate.
- Example 2 108 parts by weight of ortho-cresol are heated under reflux with 46 parts by weight of chloracetone in the presence of 10 parts by weight of concentrated hydrochloric acid. A vigorous reobtained, which whenpuriflerl melts at about When washed and Dibutyl tartrate A clear coating lacquer may be prepared from the following constitutents:-
- a pigmented lacquer maybe obtained by incorporating 20 parts by weight of chrome green or 10 parts by weight of carbon black in. the lacquer described in Example 3.
- Example 5 A composition containing vinyl acetate and the synthetic resin may be obtained from the following constituents:
- Example 6 A plastic composition containing the resin may be obtained as follows:-
- the dibutyl tartrate and resin are incorporated in any suitable manner with the cellulose acetate, either with or without the use of solvents.
- the resulting mass may be ground to a line powder, suitable for moulding,
- the above composition may also contain a filler, e. g. china clay, micro asbestos or bentonite.
- a filler e. g. china clay, micro asbestos or bentonite.
- Example 7 Cellulose ace Phenol-chloracetone formaldehyde resin A product containing a large amount of resin is prepared fromthe followingconstituents:-
- compositions of matter containing an organic derivative of cellulose and a synthetic resin compatible therewith and obtainable by the reaction of formaldehyde with the condensation product of a phenol with a halogenated aliphatic ketone.
- Gramophone records and other moulded products comprising an organic derivative oi cellulose and a synthetic resin compatible there with and obtainable by the reaction of formaldehyde with the condensation product of a phenol with a halogenated aliphatic ketone.
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Description
Patented Mar. 9, 1937 UNITED STATES PATENT OFFICE hereas or comosmons or MATTER com'smmc I srnrmmc RESINS William Henry Moss, London, England, assignor to Celanese Corporation of America, a corporation of Delaware No Drawing. Original application November 10, 1934, Serial No. 752,473. Divided and this a? plication March 19, 1936, Serial No. 69,663. In Great Britain November 22, 1933 9 Claims. (01. 134-26) This invention relates to the manufacture of lacquers, moulding powders andother compositions of .matter containing synthetic resins and to the production of films and other spun products, moulded articles and the like from such compositions of matter, and is a divisional application of my U. S. application S. No. 152,473 I filed November 10, 1934.
Dimculties have been experienced in the past in the manufacture of lacquers and other coating compositions containing synthetic resins, e. g. lacquers containing phenol formaldehyde resins, in that such compositions and films formed therefrom have tended to darken on exposure to light.
- It has now been discovered that lacquers and like compositions which have a much reduced tendency to darken on exposure to light may be formed from synthetic resins obtainable by reacting a phenol with a halogenated aliphatic. ketone and then reacting the product with formaldehyde or a substance yielding formaldehyde. Furthermore in the manufacture of moulded 'articles from compositions containing synthetic resins in which conversion of a fusible resin to an infusible for-m occurs, it is desirable that such conversion shall, take place as rapidly as possible. It has been found that the synthetic resins referred to above are particularly rapidly converted into an insoluble, infusible form so that moulding compositions containing them are of considerable value.
The present invention, therefore, is concerned with lacquers, moulding powders and other com positions of matter which comprise resins obtainable by reacting a phenol with a halogenated aliphatic ketone and then reacting the product with formaldehyde or a substance yielding formaldehyde, and with the production of films and other spun products, moulded articles and the like therefrom.
The phenols employed in the manufacture of the synthetic resins employed according to the present invention are preferably monohydrlc' phenols, e. g. xylenols and metaand para-cresols, and poly-nuclear compounds which, though more than one phenolic group is present, do not contain more than one such group in each nucleus. Partlcularly valuable 'phenols are phenol itself,
o-cresol, the mixture of cresols known as cresylic 0 acid, and diphenylol propane. The best halogenated ketone to employ is 'chloracetone, though other halogenated ketones, e. g. monochlor methyl ethyl ketone may be employed. Instead of formaldehyde itself, substances yielding formaldehyth, e. g. hexametbrlenc tetramine may be obtained from a phenol and a ketone may be reacted with formaldehyde to form a resin of the type to which the present invention relates. Thus condensation products obtained from aphenol and chloracetone are already known, and the resins employed according to the present invention may be obtained by reacting such products with formaldehyde; The proportions of constituents employed may be varied, but in genphenol to one molecule of ketone and from one to three molecules of formaldehyde yield the best results. When an acid catalyst is to be employed in a reaction in which hexamethylene tetramine is present, due allowance should of course be made for the acid neutralized in decomposing the hexamethylene tetramine.
In general, the synthetlcresins employed in the compositions of matter of this invention are fusible, soluble in solvents. such as acetone, alcohol, acetic acid and dilute caustic soda, and are insoluble in benzene and similar hydrocarbons. The synthetic resins employed according .to this invention may be rapidly converted into an infusible insoluble form and for this reason compositions comprising such resins are very valuable forthe production of moulded products,
e. g. gramophone records. The synthetic resins have a very good resistance to light, and films may be formed from compositions containing the above synthetic resins and cellulose acetate which show practically no darkening after an exposure of four days to the fadeometer, (whereas ordinary phenol-formaldehyde resins show considerable darkening under these conditions) which is of course a property of great value in lacquers. The-synthetic resins referred to above when prepared .in the presence. of acid catalysts are, in general, compatible with cellulose acetate and other organic derivatives of cellulose. The
resins are also compatible with other natural and synthetic resinl. particuhl'ly with the synthetic eral proportions of about two molecules of the resins obtained by the polymerization of vinyl acetate or other vinyl compounds, and the compositions of the present invention may contain, in addition to the synthetic resins, any of such substances or mixtures thereof. Compositions containing the above synthetic resins dissolved in organic solvents such as acetone may be formed into films and other products by wet or dry spinning processes. As stated above, the resins obtained from chloracetone, formaldehyde and phenol, o-cresol, cresylic acid or diphenylol propane are especially valuable.
The compositions of the present invention may contain suitable plasticizers, examples of which are tricresyl and triphenyl phosphates and other alkyl phosphates, di-ethyl and di-butyl tartrates and other esters, for example diand tri-acetins. They may also contain colouring materials, e. g. boneblack, iron oxide and manganese dioxide. and fillers, for example China clay, micro asbestos, bentonite, wood flour, cotton fiock, mica and gypsum.
The following examples are given in order to illustrate the invention, but it is to be understood that they do not limit it in any way:-
Example 1 The following is an example of one method of preparing a synthetic resin which may be employed in the compositions of matter of the present invention. 50 parts by weight of phenolchloracetone resin are heated at 100 C. under reflux for about 5 minutes "with 20-40 parts by weight of 40% formaldehyde solution in the presence of about .5 parts by weight of concentrated hydrochloric acid. The resin formed is washed with water and is similar in appearance to the phenol-chloracetone resin except that it has a lower melting point. dried it is fusible at about 100 C., while on cooling it shows a melting point of approximately 0., whereas the phenol-chloracetone resin employed as starting material solidifies at about 120 C. Moreover, while the phenol-chloracetone resin may be heated for a considerable time at temperatures up to 200 C. without being converted into an insoluble form, the phenol-chloracetone formaldehyde resin may be converted into such form by heating at temperatures'of even of the order of C. This property of course is of great importance in the manufacture of moulded products. The resin is soluble in acetone, acetic acid, and dilute caustic soda, and insoluble in benzole, and is compatible with cellulose acetate in all proportions giving hard films.
The process described in the above example may be modified by the use of about .25 parts by weight of phosphoric acid instead of the hydrochlcric acid. In this case the reaction is considerably slower, taking from 2-4 hours, and in consequence may be better controlled. If, instead of phosphoric acid an alkaline catalyst is used, for example 2 parts by weight of 5% caustic soda solution, the resin obtained is incompatible with cellulose acetate.
Example 2 108 parts by weight of ortho-cresol are heated under reflux with 46 parts by weight of chloracetone in the presence of 10 parts by weight of concentrated hydrochloric acid. A vigorous reobtained, which whenpuriflerl melts at about When washed and Dibutyl tartrate A clear coating lacquer may be prepared from the following constitutents:-
I Parts by weight Cellulose acetate 40 Phenol-chloracetone formaldehyde resin 60 Diethyl phthalate 20 Tricresyl phosphate 5 Acetone 200 Benzene"; 112, Alcohol 8B Ethyl lactate 40 Example 4 A pigmented lacquer maybe obtained by incorporating 20 parts by weight of chrome green or 10 parts by weight of carbon black in. the lacquer described in Example 3. g
Example 5 A composition containing vinyl acetate and the synthetic resin may be obtained from the following constituents:
, Parts by weight 'Polymerized vinyl acetate 50 Phenol-chloracetone formaldehyde resin"..- 50 Acetone 200 Benzene 112 Alcohol 88 Instead of vinyl acetate, ethyl cellulose, benzyl cellulose or cellulose nitrate may be employed.
Example 6 A plastic composition containing the resin may be obtained as follows:-
Parts by weight 100 The dibutyl tartrate and resin are incorporated in any suitable manner with the cellulose acetate, either with or without the use of solvents. The resulting mass may be ground to a line powder, suitable for moulding,
The above composition may also contain a filler, e. g. china clay, micro asbestos or bentonite.
Example 7 Cellulose ace Phenol-chloracetone formaldehyde resin A product containing a large amount of resin is prepared fromthe followingconstituents:-
I Parts by weight Instead of the phenol-chloracetone formaldehyde resin the resin obtained from ortho-cresol according to Example 2 may be employed in corresponding proportions in Examples 3-7.
Having described my invention what 1 deslle'td secure by Letters Patent is:-'-
, 1,. Compositions of matter containing an organic derivative of cellulose and a synthetic resin compatible therewith and obtainable by the reaction of formaldehyde with the condensation product of a phenol with a halogenated aliphatic ketone.
2. Compositions of matter containing-cellulose acetate and a synthetic resin compatible therewith and obtainable by the reaction of formaldehvde with the condensation product 0! phenol itself with chloracetone.
- 5. Lacquers and other coating compositions containing an organic derivative oi cellulose and a synthetic resin, compatible therewith and obtalmble bythereaction of formaldehyde with the condensation product of aphenol with chloracetone, dissolved in a solvent medium. a
6,,1iacquers and other coating compositions containing cellulose acetate anda synthetic resin, compatible therewith and obtainable by the reaction 0! formaldehyde with the condensation product of a phenol with chloracetone; dissolved in a solvent medium. 7
I. Moulding compositions containing an or ganic derivative of cellulose and a synthetic resin compatible therewith and obtainable by the reaction 0! formaldehyde with the condensation product of a phenol with chloracetone.
8. Holding compositions containing cellulose acetate and a synthetic resin compatible there- I with and obtainable by the reaction of ioi'mall'lehyde with the condensation product of a phenol with chloracetone.
9. Gramophone records and other moulded products comprising an organic derivative oi cellulose and a synthetic resin compatible there with and obtainable by the reaction of formaldehyde with the condensation product of a phenol with a halogenated aliphatic ketone.
HENRY MOS S.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US69663A US2072902A (en) | 1934-11-10 | 1936-03-19 | Manufacture of compositions of matter containing synthetic resins |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US752473A US2072901A (en) | 1933-11-22 | 1934-11-10 | Manufacture of synthetic resins |
US69663A US2072902A (en) | 1934-11-10 | 1936-03-19 | Manufacture of compositions of matter containing synthetic resins |
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US2072902A true US2072902A (en) | 1937-03-09 |
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US69663A Expired - Lifetime US2072902A (en) | 1934-11-10 | 1936-03-19 | Manufacture of compositions of matter containing synthetic resins |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2781326A (en) * | 1951-10-23 | 1957-02-12 | American Viscose Corp | Molding composition |
-
1936
- 1936-03-19 US US69663A patent/US2072902A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2781326A (en) * | 1951-10-23 | 1957-02-12 | American Viscose Corp | Molding composition |
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